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#include "RendererWorld.hpp"
void RendererWorld::LoadedSectionController() {
el::Helpers::setThreadName("RenderParser");
std::function<void(Vector)> updateAllSections = [this](Vector playerPos) {
Vector playerChunk(std::floor(gs->g_PlayerX / 16), 0, std::floor(gs->g_PlayerZ / 16));
std::vector<Vector> suitableChunks;
for (auto& it : gs->world.GetSectionsList()) {
double distance = (Vector(it.x, 0, it.z) - playerChunk).GetLength();
if (distance > MaxRenderingDistance)
continue;
suitableChunks.push_back(it);
}
std::vector<Vector> toRemove;
sectionsMutex.lock();
for (auto& it : sections) {
if (std::find(suitableChunks.begin(), suitableChunks.end(), it.first) == suitableChunks.end())
toRemove.push_back(it.first);
}
sectionsMutex.unlock();
for (auto& it : toRemove) {
EventAgregator::PushEvent(EventType::DeleteSectionRender, DeleteSectionRenderData{ it });
}
std::sort(suitableChunks.begin(), suitableChunks.end(), [playerChunk](Vector lhs, Vector rhs) {
return (playerChunk - lhs).GetLength() < (playerChunk - rhs).GetLength();
});
for (auto& it : suitableChunks) {
EventAgregator::PushEvent(EventType::ChunkChanged, ChunkChangedData{ it });
}
};
EventListener contentListener;
contentListener.RegisterHandler(EventType::ChunkChanged, [this](EventData eventData) {
auto vec = std::get<ChunkChangedData>(eventData).chunkPosition;
Vector playerChunk(std::floor(gs->g_PlayerX / 16), 0, std::floor(gs->g_PlayerZ / 16));
if ((Vector(vec.x, 0, vec.z) - playerChunk).GetLength() > MaxRenderingDistance)
return;
sectionsMutex.lock();
auto& result = sections.find(vec);
if (result != sections.end()) {
if (result->second.GetHash() != gs->world.GetSection(result->first).GetHash()) {
sections.erase(result);
sectionsMutex.unlock();
RendererSectionData data(&gs->world, vec);
renderDataMutex.lock();
renderData.push(data);
renderDataMutex.unlock();
EventAgregator::PushEvent(EventType::NewRenderDataAvailable, NewRenderDataAvailableData{});
sectionsMutex.lock();
}
}
else {
sectionsMutex.unlock();
RendererSectionData data(&gs->world, vec);
renderDataMutex.lock();
renderData.push(data);
renderDataMutex.unlock();
EventAgregator::PushEvent(EventType::NewRenderDataAvailable, NewRenderDataAvailableData{});
sectionsMutex.lock();
}
sectionsMutex.unlock();
});
contentListener.RegisterHandler(EventType::PlayerPosChanged, [this,&updateAllSections](EventData eventData) {
auto pos = std::get<PlayerPosChangedData>(eventData).newPos;
updateAllSections(pos);
});
contentListener.RegisterHandler(EventType::UpdateSectionsRender, [this,&updateAllSections](EventData eventData) {
updateAllSections(Vector(gs->g_PlayerX, gs->g_PlayerY, gs->g_PlayerZ));
});
LoopExecutionTimeController timer(std::chrono::milliseconds(32));
auto timeSincePreviousUpdate = std::chrono::steady_clock::now();
while (isRunning) {
while (contentListener.IsEventsQueueIsNotEmpty())
contentListener.HandleEvent();
if (std::chrono::steady_clock::now() - timeSincePreviousUpdate > std::chrono::seconds(15)) {
EventAgregator::PushEvent(EventType::UpdateSectionsRender, UpdateSectionsRenderData{});
timeSincePreviousUpdate = std::chrono::steady_clock::now();
}
timer.Update();
}
}
void RendererWorld::RenderBlocks(RenderState& renderState)
{
renderState.SetActiveShader(blockShader->Program);
glCheckError();
GLint projectionLoc = glGetUniformLocation(blockShader->Program, "projection");
GLint viewLoc = glGetUniformLocation(blockShader->Program, "view");
GLint windowSizeLoc = glGetUniformLocation(blockShader->Program, "windowSize");
glm::mat4 projection = glm::perspective(45.0f, (float)renderState.WindowWidth / (float)renderState.WindowHeight, 0.1f, 10000000.0f);
glm::mat4 view = gs->GetViewMatrix();
glUniformMatrix4fv(projectionLoc, 1, GL_FALSE, glm::value_ptr(projection));
glUniformMatrix4fv(viewLoc, 1, GL_FALSE, glm::value_ptr(view));
glUniform2f(windowSizeLoc, renderState.WindowWidth, renderState.WindowHeight);
glCheckError();
sectionsMutex.lock();
for (auto& it : sections) {
it.second.Render(renderState);
}
sectionsMutex.unlock();
}
void RendererWorld::RenderEntities(RenderState& renderState)
{
renderState.SetActiveShader(entityShader->Program);
glCheckError();
}
RendererWorld::RendererWorld(GameState * ptr):gs(ptr) {
MaxRenderingDistance = 2;
PrepareRender();
listener.RegisterHandler(EventType::DeleteSectionRender, [this](EventData eventData) {
auto vec = std::get<DeleteSectionRenderData>(eventData).pos;
sectionsMutex.lock();
auto it = sections.find(vec);
if (it == sections.end()) {
LOG(ERROR) << "Deleting wrong sectionRenderer";
sectionsMutex.unlock();
return;
}
sections.erase(it);
sectionsMutex.unlock();
});
listener.RegisterHandler(EventType::NewRenderDataAvailable,[this](EventData eventData) {
renderDataMutex.lock();
while (!renderData.empty()) {
auto &data = renderData.front();
auto pair = std::make_pair(data.sectionPos, RendererSection(data));
sectionsMutex.lock();
if (!sections.insert(pair).second) {
sections.erase(sections.find(data.sectionPos));
sections.insert(pair);
}
sectionsMutex.unlock();
renderData.pop();
}
renderDataMutex.unlock();
});
listener.RegisterHandler(EventType::EntityChanged, [this](EventData eventData) {
auto data = std::get<EntityChangedData>(eventData);
for (auto&it : gs->world.entities) {
if (it.entityId == data.EntityId) {
entities.push_back(RendererEntity(&gs->world,it.entityId));
return;
}
}
});
resourceLoader = std::thread(&RendererWorld::LoadedSectionController, this);
}
RendererWorld::~RendererWorld() {
size_t faces = 0;
sectionsMutex.lock();
for (auto& it : sections) {
faces += it.second.numOfFaces;
}
sectionsMutex.unlock();
LOG(INFO) << "Total faces to render: "<<faces;
isRunning = false;
resourceLoader.join();
delete blockShader;
delete entityShader;
}
void RendererWorld::Render(RenderState & renderState) {
renderState.SetActiveShader(blockShader->Program);
glCheckError();
GLint projectionLoc = glGetUniformLocation(blockShader->Program, "projection");
GLint viewLoc = glGetUniformLocation(blockShader->Program, "view");
GLint windowSizeLoc = glGetUniformLocation(blockShader->Program, "windowSize");
glm::mat4 projection = glm::perspective(45.0f, (float)renderState.WindowWidth / (float)renderState.WindowHeight, 0.1f, 10000000.0f);
glm::mat4 view = gs->GetViewMatrix();
glUniformMatrix4fv(projectionLoc, 1, GL_FALSE, glm::value_ptr(projection));
glUniformMatrix4fv(viewLoc, 1, GL_FALSE, glm::value_ptr(view));
glUniform2f(windowSizeLoc, renderState.WindowWidth, renderState.WindowHeight);
glCheckError();
sectionsMutex.lock();
for (auto& it : sections) {
it.second.Render(renderState);
}
sectionsMutex.unlock();
renderState.SetActiveShader(entityShader->Program);
glCheckError();
projectionLoc = glGetUniformLocation(entityShader->Program, "projection");
viewLoc = glGetUniformLocation(entityShader->Program, "view");
glUniformMatrix4fv(projectionLoc, 1, GL_FALSE, glm::value_ptr(projection));
glUniformMatrix4fv(viewLoc, 1, GL_FALSE, glm::value_ptr(view));
glCheckError();
GLint modelLoc = glGetUniformLocation(entityShader->Program, "model");
GLint colorLoc = glGetUniformLocation(entityShader->Program, "color");
for (auto& it : entities) {
it.modelLoc = modelLoc;
it.colorLoc = colorLoc;
it.Render(renderState);
}
}
void RendererWorld::PrepareResources() {
LOG(ERROR) << "Incorrect call";
}
void RendererWorld::PrepareRender() {
blockShader = new Shader("./shaders/face.vs", "./shaders/face.fs");
blockShader->Use();
glUniform1i(glGetUniformLocation(blockShader->Program, "textureAtlas"), 0);
entityShader = new Shader("./shaders/entity.vs", "./shaders/entity.fs");
}
bool RendererWorld::IsNeedResourcesPrepare() {
LOG(ERROR) << "Incorrect call";
return false;
}
void RendererWorld::Update() {
listener.HandleEvent();
}
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